PPT-Scalably verifiable dynamic power management

Opeoluwa Matthews Meng Zhang and Daniel J Sorin 20th International Symposium on High Performance Computer Architecture HPCA Orlando Florida February 1719 2014 Krishnaprasad K and . Klein: Humiliation Dynamic Introduction ************ There it is: it doesn't make any difference who we are or what we are, there's always somebody to look down on. - Mark Twain, 3,000 Years amon Daniel Trugman. , July . 2013. 2D Rough-Fault Dynamic Simulations. Homogenous background stress + complex fault geometry . . heterogeneity in tractions. Eliminates important source of uncertainty: fault geometry is a direct observable. Manufacturing . Systems. By . Djamila. . Ouelhadj. and . Sanja. . Petrovic. Okan Dükkancı. 02.12.2013. Introduction. Dynamic . environments . with inevitable unpredictable real time events. ;. Machine failures . systems. STREAM-Engineering Doctorate project. By: Biniam . Biruk. Ashagre. Academic Supervisors: Dr Guangtao Fu. Prof David Butler. Industrial Supervisor: Ms Kerry Davidson. Safe and Sure project weekly meeting: 29/08/2013 . Verifiable Dynamic Power Management. Opeoluwa. (Luwa) Matthews, . Meng. . Zhang,. and . Daniel J. . Sorin. Duke University. HPCA-20 Orlando, FL, February 19, 2014. Dynamic Power Management (DPM) used to improve power-efficiency at several levels of computing stack. Kibble-. Zurek. Michael Kolodrubetz. Boston University. In collaboration with: . B.K. Clark, D. . Huse. (Princeton). A. . Polkovnikov. , A. Katz (BU). Kibble-. Zurek. Scaling. Disordered. Ordered. Kibble-. *. Dynamic logic is temporary (. transient. ) in that output levels will remain valid only for a certain period of time. Static logic retains its output level as long as power is applied. Dynamic logic is normally done with charging and selectively discharging capacitance (i.e. capacitive circuit nodes). Towards Practical Verifiable Graph Processing. Yupeng. Zhang, . Charalampos. . Papamanthou. and . Jonathan . Katz. University of . Maryland. Agenda. Background of verifiable computation and motivation. Xun. Jiao. *. , Yu Jiang. +. , . Abbas. . Rahimi. $. , and Rajesh K. Gupta. *. *. University of California, San Diego. +. Tsinghua. University. $. University of California, Berkeley. Agenda. Motivation. Opeoluwa. (Luwa) Matthews, . Meng. . Zhang,. and . Daniel J. . Sorin. Duke University. HPCA-20 Orlando, FL, February 19, 2014. Dynamic Power Management (DPM) used to improve power-efficiency at several levels of computing stack. ERCOT. 5/16/2016. Agenda. NPRR617- Energy Offer Flexibility. NPRR700- Actual Fuel Costs in SUCAP. Revisions to DAMW. Revisions to RUCMW. NPRR700- Using . Actual Fuel Costs in SUCAP. Real-Time revenues earned while ramping from breaker close to LSL are not included in RUCMWAMT. Verifiable Startup Costs are reduced by an amount that approximates the Real-Time revenues to ensure a balanced equation.. Dynamic Programming. Dynamic programming is a useful mathematical technique for making a sequence of interrelated decisions. It provides a systematic procedure for determining the optimal combination of decisions.. Yupeng. Zhang. , Daniel . Genkin. , Jonathan Katz, . Dimitrios. Papadopoulos and . Charalampos. . Papamanthou. . Cloud Computing. Individuals . Companies. Universities. Security Issue: Integrity. Jed Liu. Joe Corbett-Davies. Andrew . Ferraiuolo. Alexander Ivanov. Mulong. Luo. G. Edward Suh. Andrew C.. Myers. Mark Campbell. 4. th. ACM Workshop on Cyber-Physical Systems Security and Privacy.